[1. Brauser S., Pepke L.A., Weber G., Rethmeier M. (2010), Deformation behaviour of spot-welded high strength steels for automotive appli-cations, Materials Science and Engineering, Vol. 527, 7099-7108.]Search in Google Scholar
[2. Fernández J., Illescas S., Guilemany J.M. (2007), Effect of microalloying elements on the austenitic grain growth in low carbon HSLA steel, Materials Letters, Vol. 61, 2389-2392.]Search in Google Scholar
[3. Gorni A.A., Mei P.R. (2004), Austenite transformation and age hardening of HSLA-80 and ULCB steels, Journal of Materials Processing Technology, Vol. 155-156, 1513-1518.]Search in Google Scholar
[4. Lacroix G., Pardoen T., Jacques P.J. (2008), The fracture toughness of TRIP-assisted multiphase steels, Acta Materialia, Vol. 56, 3711-4124.]Search in Google Scholar
[5. Ma C., Chen D.L., Bhole S.D., Boudreau G. (2008), Microstructure and fracture characteristics of spot-welded DP600 steel, Materials Science and Engineering, Vol. 485, 334-346.]Search in Google Scholar
[6. Mucha J., Kaščák Ľ., Spišák E. (2011), Joining the car-body sheets using clinching process with various thickness and mechanical property arrangements, Archives of civil and mechanical engineering, Vol.11, No. 1, 135-148.]Search in Google Scholar
[7. Saleh M.H., Priestner R. (2001), Retained austenite in dual-phase silicon steels and its effect on mechanical properties, Journal of Materials Processing Technology, Vol. 113, 587-593.]Search in Google Scholar
[8. Sevim I. (2006), Effect of hardness to fracture toughness for spot welded steel sheets, Material and Design, Vol. 27, 21-30.]Search in Google Scholar
[9. Show B.K., Veerababu R., Balamuralikrishnan R., Malakondaiah G. (2010), Effect of vanadium and titanium modification on the microstructure and mechanical properties of a microalloyed HSLA steel, Materials Science and Engineering, Vol. 527, 1595-1604.]Search in Google Scholar
[10. Sierra R., Nemes J.A. (2008), Investigation of the mechanical behavior of multi-phase TRIP steels using finite element methods, International Journal of Mechanical Sciences, Vol. 50, 649-665.]Search in Google Scholar
[11. Spišák E., Kaščák Ľ., Viňáš J. (2011), Research into properties of joints of combined materials made by resistance spot welding, Chemické listy, No. 16, 488-490.]Search in Google Scholar
[12. Tumuluru M.D. (2006), Resistance spot welding of coated highstrength dualphase steels, Welding Journal, No. 8, 31-37.]Search in Google Scholar
[13. Vural M., Akkus A. (2004), On the resistance spot weldability of galvanized interstitial free steel sheets with austenitic stainless steel sheets, Journal of Materials Processing Technology, Vol. 153-154, 1-6.]Search in Google Scholar
[14. Williams N.T., Parker J.D. (2004), Modelling and control of weld nugget formation, International Material Review, No. 2, 45-75.]Search in Google Scholar
[15. Zhang H., Senkara J. (2006), Resistance welding: Fundamentals and Applications, Taylor & Francis, New York.10.1201/b12507]Search in Google Scholar